The present application relates to a double-stranded DNA molecule comprising a first double-stranded DNA molecule (1) connected to a second double-stranded DNA molecule (2) by at least one covalent bond which is not a phosphodiester, phosphorothioate, phosphoramidate or phosphorodiamidate bond, preferably by a tether, said tether preferably being a double-stranded DNA molecule.

The present application relates to a double-stranded DNA molecule comprising a first double-stranded DNA molecule (1) connected to a second double-stranded DNA molecule (2) by at least one covalent bond which is not a phosphodiester, phosphorothioate, phosphoramidate or phosphorodiamidate bond, preferably by a tether, said tether preferably being a double-stranded DNA molecule.

The present disclosure provides compositions, methods and systems for sequencing a template nucleic acid using a polymerase based, nucleic acid binding reaction involving examination of the interaction between a polymerase and template nucleic acid in the presence of one or more unlabeled nucleotides. The methods rely, in part, on identifying a base of a template nucleic acid during nucleic acid synthesis by controlling the sequencing reaction conditions. Template nucleic acid bases may be identified during an examination step followed by an optional incorporation step.

The present disclosure provides compositions, methods and systems for sequencing a template nucleic acid using a polymerase based, nucleic acid binding reaction involving examination of the interaction between a polymerase and template nucleic acid in the presence of one or more unlabeled nucleotides. The methods rely, in part, on identifying a base of a template nucleic acid during nucleic acid synthesis by controlling the sequencing reaction conditions. Template nucleic acid bases may be identified during an examination step followed by an optional incorporation step.

A method for determining the presence of an allele, including (a) binding a polymerase to a double stranded nucleic acid that includes a primer hybridized to a template, the template including a first allele of a locus; (b) adding a nucleotide to the primer via catalytic activity of the polymerase, thereby producing an extended nucleic acid; (c) dissociating the polymerase from the extended nucleic acid; (d) detecting dissociation of the polymerase from the extended nucleic acid; and (e) comparing the dissociation of the polymerase from the extended nucleic acid to dissociation of the polymerase from a second double stranded nucleic acid, the second double stranded nucleic acid including a primer hybridized to the same position of the locus as the primer of the extended nucleic acid.

A method for determining the presence of an allele, including (a) binding a polymerase to a double stranded nucleic acid that includes a primer hybridized to a template, the template including a first allele of a locus; (b) adding a nucleotide to the primer via catalytic activity of the polymerase, thereby producing an extended nucleic acid; (c) dissociating the polymerase from the extended nucleic acid; (d) detecting dissociation of the polymerase from the extended nucleic acid; and (e) comparing the dissociation of the polymerase from the extended nucleic acid to dissociation of the polymerase from a second double stranded nucleic acid, the second double stranded nucleic acid including a primer hybridized to the same position of the locus as the primer of the extended nucleic acid.

A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydrophobically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm. Membranes comprising the membrane-spanning nanopore and applications of those membranes are also provided.

A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydrophobically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm. Membranes comprising the membrane-spanning nanopore and applications of those membranes are also provided.

A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydrophobically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm.

A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydrophobically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm.